UMLS:C0406810 - FACTA Search

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Query: UMLS:C0406810 (NAME)
13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We hypothesized that endotoxin (LPS) would impair vasoconstrictor-agonist-induced calcium (Ca2+) mobilization by a nitric oxide (NO)-dependent mechanism. We incubated bovine aortic myocytes (passages 16 to 23) for 22 to 24 hours with 0 to 1.0 mg/ml Escherichia coli lipopolysaccharide (LPS). Medium (Dulbecco's modified Eagle's medium (DMEM) + 10% fetal bovine serum (FBS)) was assayed for nitrite (chemiluminescence), and myocytes were loaded with fura-2 acetoxymethyl ester (fura-2AM), after which we assessed basal and thrombin (10 U/ml)-induced peak Ca2+ mobilization by microspectrofluorimetry. LPS (0.01 to 1.0 mg/ml) led to dose-dependent nitrite accumulation, which was blocked by coincubation with N(omega)-nitro-L-arginine methyl ester (L-NAME, 1 mmol/L). LPS also impaired Ca2+ responses in a dose-dependent manner (from -13% at 0.1 mg/ml to -47% at 1.0 mg/ml, n = 8 to 43/dose). However, coincubation with L-NAME did not ameliorate the Ca2+ mobilization defect (peak Ca2+ increments: control = 419 +/-30 nmol/L, vs LPS (1 mg/ml) = 206+/-18 nmol/L (mean+/-SE), n = 15; p < 0.001; control/L-NAME: 417+/-31 nmol/L vs LPS/L-NAME: 212+/-19 nmol/L; n = 17 p < 0.001), despite inhibition of associated nitrite accumulation in the medium (control vs LPS: p < 0.001; control/L-NAME vs LPS/L-NAME: p > 0.05; LPS vs LPS/L-NAME: p < 0.001). Supplemental L-arginine augmented LPS-induced nitrite generation without affecting Ca2+ mobilization. Indomethacin failed to prevent the LPS-induced decrement in thrombin response, but did inhibit LPS-induced myocyte nitrite production, suggesting "crosstalk" between the NO-synthase and cyclo-oxygenase (COX) systems. These experiments suggest that LPS-induced vascular contractile impairment is at least partly mediated by an NO-independent impairment of agonist-induced myocyte Ca2+ mobilization. This further suggests that any important contribution of NO synthesis to LPS-induced contractile dysfunction must depend on impairment of the Ca2+ sensitivity of the contractile apparatus (i.e., pharmacomechanical coupling).
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PMID:Endotoxin impairs agonist-induced calcium mobilization in bovine aortic myocytes by a nitric oxide-independent mechanism. 957 87

1. The aim of the present study was to investigate the effects of bradykinin and [des-Arg9]-bradykinin and their relaxant mechanisms in the mouse isolated trachea. 2. In the resting tracheal preparations with intact epithelium, bradykinin and [des-Arg9]-bradykinin (each drug, 0.01-10 microM) induced neither contraction nor relaxation. In contrast, bradykinin (0.01-10 microM) induced concentration-dependent relaxation when the tracheal preparations were precontracted with methacholine (1 microM). The relaxation induced by bradykinin was inhibited by the B2 receptor antagonist, D-Arg0-[Hyp3,Thi5,D-Tic7,Oic8]-bradykinin (Hoe 140, 0.01-1 microM) in a concentration-dependent manner whereas the B1 receptor antagonist, [des-Arg9,Leu8]-bradykinin (0.01-1 microM), had no inhibitory effect on bradykinin-induced relaxation. [des-Arg9]-bradykinin (0.01-10 microM) also caused concentration-dependent relaxation after precontraction with methacholine. The relaxation induced by [des-Arg9-bradykinin was concentration-dependently inhibited by the B1 receptor antagonist, [des-Arg9,Leu8]-bradykinin (0.01-1 microM), whereas the B2 receptor antagonist, Hoe 140 (0.01-1 microM) was without effect. 3. In the presence of the cyclo-oxygenase inhibitor, indomethacin (0.01-1 microM), the relaxations induced by bradykinin and [des-Arg9]-bradykinin were inhibited concentration-dependently. 4. Two nitric oxide (NO) biosynthesis inhibitors NG-nitro-L-arginine methyl ester (L-NAME, 100 microM) and NG-nitro-L-arginine (L-NOARG, 100 microM) had no inhibitory effects on the relaxations induced by bradykinin and [des-Arg9]-bradykinin. Neither did the selective inhibitor of the soluble guanylate cyclase, 1H-[1,2,4]oxadiazolo[4,3-a]quinoxalin-1-one (ODQ, 10 microM) inhibit the relaxations induced by bradykinin and [des-Arg9]-bradykinin. 5. Prostaglandin E2 (PGE2, 0.01-33 microM) caused concentration-dependent relaxation of the tracheal preparations precontracted with methacholine. Indomethacin (1 microM) and ODQ (10 microM) exerted no inhibitory effects on the relaxation induced by PGE2. 6. The NO-donor, sodium nitroprusside (SNP; 0.01-100 microM) also caused concentration-dependent relaxation of the tracheal preparations precontracted with methacholine. ODQ (0.1-1 microM) concentration-dependently inhibited the relaxation induced by SNP. 7. These data demonstrate that bradykinin and [des-Arg9]-bradykinin relax the mouse trachea precontracted with methacholine by the activation of bradykinin B2-receptors and B1-receptors, respectively. The stimulation of bradykinin receptors induces activation of the cyclo-oxygenase pathway, leading to the production of relaxing prostaglandins. The NO pathway is not involved in the bradykinin-induced relaxation. The relaxation caused by NO-donors in the mouse trachea is likely to be mediated via activation of soluble guanylate cyclase.
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PMID:Involvement of bradykinin B1 and B2 receptors in relaxation of mouse isolated trachea. 957 28

The sensitivity (EC50) of the ring segment of the mesenteric artery to serotonin (4.84 +/- 0.53 x 10(-7) mol.l-1) was 17x greater than that of the aortic ring segment (5.29 +/- 0.46 x 10(-6) mol.l-1). Incubation of the ring segments in physiological salt solution (PSS) containing methylene blue greatly potentiated the sensitivity of both the aorta and mesenteric artery to serotonin. The degree of potentiation was higher in the aorta than mesenteric artery. L-NAME also increased the sensitivity of both the aorta and mesenteric artery to serotonin and there was no difference in the degree of potentiation of the responses between the aorta and the mesenteric artery. Indomethacin inhibited the contractile responses of the aorta and the mesenteric artery to serotonin. Phenoxybenzamine reduced the contractile responses of both the aorta and the mesenteric artery by the same magnitude. Captopril (10(-4) mol.l-1) significantly attenuated the responses of the mesenteric artery more than the aorta, while methysergide (10(-8) mol.l-1) completely abolished the difference in the responses (EC50 for aorta = 3.50 +/- 0.55 x 10(-5) mol.l-1 vs 5.00 +/- 0.49 x 10(-5) mol.l-1 for mesenteric artery). This study demonstrates that rat aorta and mesenteric artery respond differently to serotonin and the differential response is due to a methylene blue sensitive factor and differences in either the receptor population or sensitivity.
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PMID:Rat aorta and mesenteric artery respond differently to serotonin. 965 98

To assess the effects of exposure of the lung to hyperoxic conditions on reactivity of pulmonary microcirculation to hypoxic stimulation, we measured hypoxia-elicited overall pulmonary pressor changes (HPV) and microvascular diameter changes in intraacinar arterioles, venules, and capillaries in isolated perfused rat lungs exposed to a hyperoxic environment (90% O2). To estimate the importance of vasoactive prostaglandins and nitric oxide (NO) for HPV modification, we examined the roles of constitutive and inducible forms of cyclooxygenase (COX-1 and COX-2) and those of NO synthase (eNOS and iNOS). Indomethacin was used for inhibiting both COX-1 and COX-2, while NS-398 was used as a selective inhibitor of COX-2. Both eNOS and iNOS were suppressed by L-NAME, whereas iNOS alone was inhibited by aminoguanidine. Microvascular diameter was measured with a real-time confocal laser scanning luminescence microscope. We found that (1) exposure to hyperoxia caused overall HPV and arteriolar constriction to be attenuated; (2) the blunted HPV was restored by L-NAME but not by aminoguanidine, indomethacin, or NS-398; and (3) arteriolar constriction was improved by either L-NAME, aminoguanidine, or indomethacin but only slightly by NS-398. In conclusion, attenuation of overall HPV in hyperoxia-exposed lungs is explicable mainly by excessive NO generated via eNOS, while impaired arteriolar constriction is caused by NO yielded by eNOS and iNOS as well as by vasodilating prostaglandin(s) produced by COX-1.
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PMID:Impaired hypoxic vasoconstriction in intraacinar microvasculature in hyperoxia-exposed rat lungs. 970 Jan 41

Bradykinin plays an important role in the regulation of renal hemodynamics. However, there have been few studies of the effect of bradykinin on isolated afferent arterioles, vascular segments that are important for the regulation of renal blood flow and glomerular filtration rate. Our purpose was to study (1) the effects of bradykinin on isolated perfused rabbit afferent arterioles and (2) the mechanisms of actions. Afferent arterioles dissected from rabbits were perfused in vitro at 60 mm Hg. In afferent arterioles preconstricted with phenylephrine, 10(-12) to 10(-10) mol/L bradykinin increased luminal diameter from 9.0+/-1.0 to 14.3+/-1.2 microm (P<0.003). In contrast, 10(-9) and 10(-8) mol/L bradykinin decreased luminal diameter to 10.8+/-1.4 and 9.7+/-1.2 microm, respectively (P<0.001). Bradykinin added to the bath had no effect on preconstricted afferent arterioles. The addition of [des-Arg9]-bradykinin (10(-9) and 10(-8) mol/L), a B1 receptor agonist, to the lumen decreased diameter from 9.7+/-1.2 to 6.7+/-1.2 microm at 10(-8) mol/L (P<0.002). Icatibant (Hoe 140), a B2 receptor antagonist, blocked both the vasodilation and vasoconstriction induced by bradykinin as well as the vasoconstriction induced by [des-Arg9]-bradykinin. L-NAME had no effect on bradykinin-induced dilation or constriction. Indomethacin blocked both the dilation induced by 10(-12) to 10(-10) mol/L bradykinin and the constriction induced by 10(-9) to 10(-8) mol/L bradykinin. In fact, in the presence of indomethacin, 10(-9) and 10(-8) mol/L bradykinin increased luminal diameter from 6.2+/-0.7 to 10.7+/-0.6 microm at 10(-8) mol/L (P<0.001), which was attenuated by L-NAME. Finally, in the presence of SQ29548, a prostaglandin H2/thromboxane A2 receptor antagonist, bradykinin caused dilation at all concentrations tested. In conclusion, bradykinin has a biphasic effect on afferent arterioles. Both dilation and constriction may be mediated by bradykinin B2 receptors. The mechanisms of vasodilation and vasoconstriction are due to cyclooxygenase products, not nitric oxide.
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PMID:Biphasic effect of bradykinin on rabbit afferent arterioles. 971 56

Peripheral mechanisms involved in kainic acid injected into the raphe pallidus (Rpa)-induced gastric protection were investigated in urethan-anesthetized rats. Gastric mucosal blood flow (GMBF), acid secretion, and gastric injury induced by intragastric ethanol (60%) were measured in response to kainic acid (25 pg) injected into the Rpa. Kainic acid reduced ethanol-induced gastric lesions by 57%. The protective effect was blocked by vagotomy, capsaicin deafferentation, and intravenous injection of the calcitonin gene-related peptide (CGRP) antagonist CGRP-(8-37) and NG-nitro-L-arginine methyl ester (L-NAME). L- but not D-arginine reversed the L-NAME action. Kainic acid injected into the Rpa, unlike outside sites, increased basal GMBF but not acid secretion. Indomethacin unmasked an acid secretory response to kainic acid. These results show that kainic acid injected into the Rpa at a dose that did not stimulate acid secretion, due to the inhibitory effect of prostaglandins, protects against ethanol-induced gastric injury through vagal-dependent activation of CGRP contained in capsaicin-sensitive afferents and nitric oxide-mediated gastric vasodilatory mechanisms.
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PMID:Vagal mechanisms underlying gastric protection induced by chemical activation of raphe pallidus in rats. 981 36

1. We tested the hypothesis that nitric oxide (NO) exerts a tonic inhibitory influence on cytochrome P450 (CYP450)-dependent metabolism of arachidonic acid (AA). 2. N(omega)-nitro-L-Arginine methyl ester (L-NAME), an inhibitor of nitric oxide synthase (NOS), increased mean blood pressure (MBP), from 91+/-6 to 137+/-5 mmHg, renal vascular resistance (RVR), from 9.9+/-0.6 to 27.4+/-2.5 mmHg ml(-1) min(-1), and reduced renal blood flow (RBF), from 9.8+/-0.7 to 6.5+/-0.6 ml min(-1)) and GFR from 1.2+/-0.2 to 0.6+/-0.2 ml 100 g(-1) min(-1)) accompanied by diuresis (UV, 1.7+/-0.3 to 4.3+/-0.8 microl 100 g(-1) min (-1)), and natriuresis (U(Na)V, 0.36+/-0.04 to 1.25+/-0.032 micromol 100 g(-1) min(-1)). 3. 12, 12 dibromododec-enoic acid (DBDD), an inhibitor of omega hydroxylase, blunted L-NAME-induced changes in MBP, RVR, UV and U(Na)V by 63+/-8, 70+/-5, 45+/-8 and 42+/-9%, respectively, and fully reversed the reduction in GFR by L-NAME. Clotrimazole, an inhibitor of the epoxygenase pathway of CYP450-dependent AA metabolism, was without effect. 4. BMS182874 (5-dimethylamino)-N-(3,4-dimethyl-5-isoxazolyl)-1-naphthalenesulfo namide), an endothelin (ET)A receptor antagonist, also blunted the increases in MBP and RVR and the diuresis/natriuresis elicited by L-NAME without affecting GFR. 5. Indomethacin blunted L-NAME-induced increases in RVR, UV and U(Na)V. BMS180291 (1S-(1alpha,2alpha,3alpha,4alpha)]-2-[[3-[4-[(++ +pentylamino)carbonyl]-2-oxazolyl]-7-oxabicyclo[2.2.1]hept-2-yl ]methyl]benzenepropanoic acid), an endoperoxide receptor antagonist, attenuated the pressor and renal haemodynamic but not the renal tubular effects of L-NAME. 6. In conclusion, the renal functional effects of the CYP450-derived mediator(s) expressed after inhibition of NOS with L-NAME were prevented by inhibiting either CYP450 omega hydroxylase or cyclooxygenase or by antagonizing either ET(A) or endoperoxide receptors. 20-hydroxyeicosatetraenoic acid (20-HETE) fulfils the salient properties of this mediator.
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PMID:Functional response of the rat kidney to inhibition of nitric oxide synthesis: role of cytochrome p450-derived arachidonate metabolites. 984 46

The present study analyses the influence of hypertension and endothelium on the effect induced by hydrogen peroxide (H2O2) on basal tone in aortic segments from normotensive Wistar-Kyoto (WKY) and spontaneously hypertensive rats (SHR) of 6-month-old, as well as the possible mechanisms involved. Single (1 mM) or cumulative (100 nM-10 mM) concentrations of H2O2 produced a transient contraction or a concentration-dependent increase of basal tone, respectively, in segments from WKY and SHR. In both cases, the contractions were higher in intact segments from hypertensive than from normotensive rats, and increased by endothelium removal in both strains. Catalase (1000 u ml(-1), a H2O2 scavenger) abolished the contraction elicited by 1 mM H2O2 in both strains. Superoxide dismutase (SOD, 150 u ml(-1)) and dimethylsulphoxide (DMSO, 7 mM), scavengers of superoxide anions and hydroxyl radicals, respectively, did not alter H2O2-induced contractions in intact segments from both strains. However, L-NG-nitroarginine methyl ester (L-NAME, 100 microM, a nitric oxide synthase inhibitor) increased the response to H2O2 in normotensive rats, although the increase was less than that produced by endothelium removal. Incubation of segments with 1 mM H2O2 for 15 min and subsequent washout reduced the contractile responses induced by 75 mM KCl in intact segments from SHR and in endothelium-denuded segments from both strains; this effect being prevented by catalase (1000 u ml(-1)). Indomethacin (10 microM, a cyclo-oxygenase inhibitor) and SQ 29,548 (10 microM, a prostaglandin H2/thromboxane A2 receptor antagonist) practically abolished the contractions elicited by H2O2 in normotensive and hypertensive rats. We conclude that: (1) the oxidant stress induced by H2O2 produces contractions mediated by generation of a product of the cyclo-oxygenase pathway, prostaglandin H2 or more probably thromboxane A2, in normotensive and hypertensive rats; (2) oxygen-derived free radicals are not involved in the effect of H2O2; (3) in normotensive rats, endothelium protects against H2O2-mediated injury to contractile machinery, determined by the impairment of KCl-induced contractions; and (4) endothelial nitric oxide has a protective role on the contractile effect induced by H2O2, that is lost in hypertension.
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PMID:Contractile responses elicited by hydrogen peroxide in aorta from normotensive and hypertensive rats. Endothelial modulation and mechanism involved. 986 64

Duodenal fat such as oleate is known to influence gut functions by release of cholecystokinin (CCK), but the contribution of CCK endogenously released by duodenal fat or by diversion of pancreatic juice from the duodenum in the mechanism of mucosal integrity and gastroprotection has been little studied. This study was designed to compare the effect of CCK-8 and intraduodenal (i.d.) instillation of sodium oleate, or diversion of the pancreatic biliary secretions that are known to release CCK, on the gastric mucosal lesions induced by topical application of 100% ethanol or acidified aspirin (ASA) in rats with or without the pretreatment with a CCK-A receptor antagonist, loxiglumide, or with L-365,260 to block CCK-B receptors. In addition, the effect of suppression of prostaglandin (PG) biosynthesis by indomethacin (5 mg/kg i.p.), inhibition of nitric oxide (NO)-synthase by L-NAME (5 mg/kg i.v.), or blockade of sensory nerves by capsaicin (125 mg/kg s.c.) on the protective activity of sodium oleate was determined. Sodium oleate (50-200 mM i.d.), or diversion of pancreatic juice from the duodenum for 3 h that produced significant rise in plasma CCK levels, significantly reduced gastric lesions induced by 100% ethanol to an extent similar to that induced by exogenous CCK-8 (5 nmol/kg s.c.). The protective effect of oleate or diversion of pancreatic juice was accompanied by an increase in gastric blood flow (GBF). Both protection and accompanying hyperemia were completely abolished by blockade of CCK-A receptors with loxiglumide, whereas L-365,260, an antagonist of CCK-B receptors, had no effect. Oleate given i.d. significantly attenuated acidified ASA-induced gastric lesions and gastric secretion while increasing the luminal concentration of somatostatin. These effects were significantly reduced by loxiglumide but not by L-365,260. In contrast, CCK-8, which stimulated gastric acid secretion, failed to affect the lesions induced by acidified ASA and the decrease in the GBF produced by this ulcerogen. Indomethacin, which suppressed PG generation by approximately 90%, failed to influence the protective activity of oleate or CCK-8 against ethanol-induced lesions, whereas L-NAME, vagotomy, or sensory denervation significantly attenuated this protection and accompanying hyperemia. Addition to L-NAME of L-arginine, but not D-arginine, restored the protective and hyperemic effects of CCK-8 and duodenal oleate against gastric lesions induced by ethanol or acidified ASA. We conclude that endogenous CCK released by oleate or diversion of pancreatic secretion exerts a potent gastroprotective action on the stomach involving predominantly CCK-A receptors and depending on vagal activity, and hyperemia mediated by NO and sensory nerves but unrelated to acid secretory effects and endogenous PG.
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PMID:Involvement of endogenous cholecystokinin and somatostatin in gastroprotection induced by intraduodenal fat. 987 9

Acetylcholine acting through specific muscarinic membrane receptors causes a negative dromotropic effect and, in blood vessels, causes a vasodilation which results from its action on the endothelial cells via release of nitric oxide (NO). We decided to study this effect in isolated Krebs-Henseleit retrogradely perfused guinea pig hearts. A pair of stimulating electrodes was placed in the right atrium and to record the auricular-ventricular interval (A-V delay) one recording electrode was placed on the left atrium and the other on the tip of the ventricle. Hearts were paced at a rate of 3.8+/-0.1 Hz and perfused at a coronary flow rate of 9+/-0.25 ml/min. To obtain dose-response curves, single doses (as boluses) of acetylcholine were infused and the maximal A-V delay induced by each dose was determined. Perfusion of agents that inhibit NO accumulation (L-Arginine methyl ester (L-NAME) (0.5 mM)) or oxyhemoglobin (6 microM) caused displacement of the acetylcholine dose-response curve downward and to the right. Perfusion of NO-sparing agents like superoxide dismutase and dithiothreitol caused an upward and leftward displacement. Infusion of NO solutions or a NO donor (diethylamine-nitric oxide [DEA-NO]) caused a dose-dependent negative dromotropic effect. In contrast, inhibition of the prostaglandin metabolic pathway by Indomethacin (0.01 mM) caused potentiation of acetylcholine effects which were reversed when it was co-perfused with L-NAME. When endothelial intravascular muscarinic receptors were selectively blocked by perfusion of a non-permeable macromolecule: dextran ( > 2000 kDa) covalently complexed to the receptor blocker (3-(2'-aminobenzhydryloxy) tropane)), the negative dromotropic effect of intravascular acetylcholine was diminished in a concentration-dependent manner up to complete blockade. Our data indicate that the dromotropic effect caused by intracoronary administration of acetylcholine is the result solely of activation of intravascular endothelial muscarinic receptors, that nitric oxide and prostaglandins are non-synergistic endothelial mediators of this effect and that there may be an interaction between NO and prostaglandin metabolic pathways.
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PMID:Endothelium-mediated negative dromotropic effects of intravascular acetylcholine. 987 66

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